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|
/* Generic symbol-table support for the BFD library.
Copyright 1990, 1991, 1992, 1993, 1994, 1995, 1996, 1997, 1998, 1999,
2000, 2001, 2002, 2003, 2004, 2005, 2007, 2008, 2009, 2012
Free Software Foundation, Inc.
Written by Cygnus Support.
This file is part of BFD, the Binary File Descriptor library.
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston,
MA 02110-1301, USA. */
/*
SECTION
Symbols
BFD tries to maintain as much symbol information as it can when
it moves information from file to file. BFD passes information
to applications though the <<asymbol>> structure. When the
application requests the symbol table, BFD reads the table in
the native form and translates parts of it into the internal
format. To maintain more than the information passed to
applications, some targets keep some information ``behind the
scenes'' in a structure only the particular back end knows
about. For example, the coff back end keeps the original
symbol table structure as well as the canonical structure when
a BFD is read in. On output, the coff back end can reconstruct
the output symbol table so that no information is lost, even
information unique to coff which BFD doesn't know or
understand. If a coff symbol table were read, but were written
through an a.out back end, all the coff specific information
would be lost. The symbol table of a BFD
is not necessarily read in until a canonicalize request is
made. Then the BFD back end fills in a table provided by the
application with pointers to the canonical information. To
output symbols, the application provides BFD with a table of
pointers to pointers to <<asymbol>>s. This allows applications
like the linker to output a symbol as it was read, since the ``behind
the scenes'' information will be still available.
@menu
@* Reading Symbols::
@* Writing Symbols::
@* Mini Symbols::
@* typedef asymbol::
@* symbol handling functions::
@end menu
INODE
Reading Symbols, Writing Symbols, Symbols, Symbols
SUBSECTION
Reading symbols
There are two stages to reading a symbol table from a BFD:
allocating storage, and the actual reading process. This is an
excerpt from an application which reads the symbol table:
| long storage_needed;
| asymbol **symbol_table;
| long number_of_symbols;
| long i;
|
| storage_needed = bfd_get_symtab_upper_bound (abfd);
|
| if (storage_needed < 0)
| FAIL
|
| if (storage_needed == 0)
| return;
|
| symbol_table = xmalloc (storage_needed);
| ...
| number_of_symbols =
| bfd_canonicalize_symtab (abfd, symbol_table);
|
| if (number_of_symbols < 0)
| FAIL
|
| for (i = 0; i < number_of_symbols; i++)
| process_symbol (symbol_table[i]);
All storage for the symbols themselves is in an objalloc
connected to the BFD; it is freed when the BFD is closed.
INODE
Writing Symbols, Mini Symbols, Reading Symbols, Symbols
SUBSECTION
Writing symbols
Writing of a symbol table is automatic when a BFD open for
writing is closed. The application attaches a vector of
pointers to pointers to symbols to the BFD being written, and
fills in the symbol count. The close and cleanup code reads
through the table provided and performs all the necessary
operations. The BFD output code must always be provided with an
``owned'' symbol: one which has come from another BFD, or one
which has been created using <<bfd_make_empty_symbol>>. Here is an
example showing the creation of a symbol table with only one element:
| #include "sysdep.h"
| #include "bfd.h"
| int main (void)
| {
| bfd *abfd;
| asymbol *ptrs[2];
| asymbol *new;
|
| abfd = bfd_openw ("foo","a.out-sunos-big");
| bfd_set_format (abfd, bfd_object);
| new = bfd_make_empty_symbol (abfd);
| new->name = "dummy_symbol";
| new->section = bfd_make_section_old_way (abfd, ".text");
| new->flags = BSF_GLOBAL;
| new->value = 0x12345;
|
| ptrs[0] = new;
| ptrs[1] = 0;
|
| bfd_set_symtab (abfd, ptrs, 1);
| bfd_close (abfd);
| return 0;
| }
|
| ./makesym
| nm foo
| 00012345 A dummy_symbol
Many formats cannot represent arbitrary symbol information; for
instance, the <<a.out>> object format does not allow an
arbitrary number of sections. A symbol pointing to a section
which is not one of <<.text>>, <<.data>> or <<.bss>> cannot
be described.
INODE
Mini Symbols, typedef asymbol, Writing Symbols, Symbols
SUBSECTION
Mini Symbols
Mini symbols provide read-only access to the symbol table.
They use less memory space, but require more time to access.
They can be useful for tools like nm or objdump, which may
have to handle symbol tables of extremely large executables.
The <<bfd_read_minisymbols>> function will read the symbols
into memory in an internal form. It will return a <<void *>>
pointer to a block of memory, a symbol count, and the size of
each symbol. The pointer is allocated using <<malloc>>, and
should be freed by the caller when it is no longer needed.
The function <<bfd_minisymbol_to_symbol>> will take a pointer
to a minisymbol, and a pointer to a structure returned by
<<bfd_make_empty_symbol>>, and return a <<asymbol>> structure.
The return value may or may not be the same as the value from
<<bfd_make_empty_symbol>> which was passed in.
*/
/*
DOCDD
INODE
typedef asymbol, symbol handling functions, Mini Symbols, Symbols
*/
/*
SUBSECTION
typedef asymbol
An <<asymbol>> has the form:
*/
/*
CODE_FRAGMENT
.
.typedef struct bfd_symbol
.{
. {* A pointer to the BFD which owns the symbol. This information
. is necessary so that a back end can work out what additional
. information (invisible to the application writer) is carried
. with the symbol.
.
. This field is *almost* redundant, since you can use section->owner
. instead, except that some symbols point to the global sections
. bfd_{abs,com,und}_section. This could be fixed by making
. these globals be per-bfd (or per-target-flavor). FIXME. *}
. struct bfd *the_bfd; {* Use bfd_asymbol_bfd(sym) to access this field. *}
.
. {* The text of the symbol. The name is left alone, and not copied; the
. application may not alter it. *}
. const char *name;
.
. {* The value of the symbol. This really should be a union of a
. numeric value with a pointer, since some flags indicate that
. a pointer to another symbol is stored here. *}
. symvalue value;
.
. {* Attributes of a symbol. *}
.#define BSF_NO_FLAGS 0x00
.
. {* The symbol has local scope; <<static>> in <<C>>. The value
. is the offset into the section of the data. *}
.#define BSF_LOCAL (1 << 0)
.
. {* The symbol has global scope; initialized data in <<C>>. The
. value is the offset into the section of the data. *}
.#define BSF_GLOBAL (1 << 1)
.
. {* The symbol has global scope and is exported. The value is
. the offset into the section of the data. *}
.#define BSF_EXPORT BSF_GLOBAL {* No real difference. *}
.
. {* A normal C symbol would be one of:
. <<BSF_LOCAL>>, <<BSF_COMMON>>, <<BSF_UNDEFINED>> or
. <<BSF_GLOBAL>>. *}
.
. {* The symbol is a debugging record. The value has an arbitrary
. meaning, unless BSF_DEBUGGING_RELOC is also set. *}
.#define BSF_DEBUGGING (1 << 2)
.
. {* The symbol denotes a function entry point. Used in ELF,
. perhaps others someday. *}
.#define BSF_FUNCTION (1 << 3)
.
. {* Used by the linker. *}
.#define BSF_KEEP (1 << 5)
.#define BSF_KEEP_G (1 << 6)
.
. {* A weak global symbol, overridable without warnings by
. a regular global symbol of the same name. *}
.#define BSF_WEAK (1 << 7)
.
. {* This symbol was created to point to a section, e.g. ELF's
. STT_SECTION symbols. *}
.#define BSF_SECTION_SYM (1 << 8)
.
. {* The symbol used to be a common symbol, but now it is
. allocated. *}
.#define BSF_OLD_COMMON (1 << 9)
.
. {* In some files the type of a symbol sometimes alters its
. location in an output file - ie in coff a <<ISFCN>> symbol
. which is also <<C_EXT>> symbol appears where it was
. declared and not at the end of a section. This bit is set
. by the target BFD part to convey this information. *}
.#define BSF_NOT_AT_END (1 << 10)
.
. {* Signal that the symbol is the label of constructor section. *}
.#define BSF_CONSTRUCTOR (1 << 11)
.
. {* Signal that the symbol is a warning symbol. The name is a
. warning. The name of the next symbol is the one to warn about;
. if a reference is made to a symbol with the same name as the next
. symbol, a warning is issued by the linker. *}
.#define BSF_WARNING (1 << 12)
.
. {* Signal that the symbol is indirect. This symbol is an indirect
. pointer to the symbol with the same name as the next symbol. *}
.#define BSF_INDIRECT (1 << 13)
.
. {* BSF_FILE marks symbols that contain a file name. This is used
. for ELF STT_FILE symbols. *}
.#define BSF_FILE (1 << 14)
.
. {* Symbol is from dynamic linking information. *}
.#define BSF_DYNAMIC (1 << 15)
.
. {* The symbol denotes a data object. Used in ELF, and perhaps
. others someday. *}
.#define BSF_OBJECT (1 << 16)
.
. {* This symbol is a debugging symbol. The value is the offset
. into the section of the data. BSF_DEBUGGING should be set
. as well. *}
.#define BSF_DEBUGGING_RELOC (1 << 17)
.
. {* This symbol is thread local. Used in ELF. *}
.#define BSF_THREAD_LOCAL (1 << 18)
.
. {* This symbol represents a complex relocation expression,
. with the expression tree serialized in the symbol name. *}
.#define BSF_RELC (1 << 19)
.
. {* This symbol represents a signed complex relocation expression,
. with the expression tree serialized in the symbol name. *}
.#define BSF_SRELC (1 << 20)
.
. {* This symbol was created by bfd_get_synthetic_symtab. *}
.#define BSF_SYNTHETIC (1 << 21)
.
. {* This symbol is an indirect code object. Unrelated to BSF_INDIRECT.
. The dynamic linker will compute the value of this symbol by
. calling the function that it points to. BSF_FUNCTION must
. also be also set. *}
.#define BSF_GNU_INDIRECT_FUNCTION (1 << 22)
. {* This symbol is a globally unique data object. The dynamic linker
. will make sure that in the entire process there is just one symbol
. with this name and type in use. BSF_OBJECT must also be set. *}
.#define BSF_GNU_UNIQUE (1 << 23)
.
. flagword flags;
.
. {* A pointer to the section to which this symbol is
. relative. This will always be non NULL, there are special
. sections for undefined and absolute symbols. *}
. struct bfd_section *section;
.
. {* Back end special data. *}
. union
. {
. void *p;
. bfd_vma i;
. }
. udata;
.}
.asymbol;
.
*/
#include "sysdep.h"
#include "bfd.h"
#include "libbfd.h"
#include "safe-ctype.h"
#include "bfdlink.h"
#include "aout/stab_gnu.h"
/*
DOCDD
INODE
symbol handling functions, , typedef asymbol, Symbols
SUBSECTION
Symbol handling functions
*/
/*
FUNCTION
bfd_get_symtab_upper_bound
DESCRIPTION
Return the number of bytes required to store a vector of pointers
to <<asymbols>> for all the symbols in the BFD @var{abfd},
including a terminal NULL pointer. If there are no symbols in
the BFD, then return 0. If an error occurs, return -1.
.#define bfd_get_symtab_upper_bound(abfd) \
. BFD_SEND (abfd, _bfd_get_symtab_upper_bound, (abfd))
.
*/
/*
FUNCTION
bfd_is_local_label
SYNOPSIS
bfd_boolean bfd_is_local_label (bfd *abfd, asymbol *sym);
DESCRIPTION
Return TRUE if the given symbol @var{sym} in the BFD @var{abfd} is
a compiler generated local label, else return FALSE.
*/
bfd_boolean
bfd_is_local_label (bfd *abfd, asymbol *sym)
{
/* The BSF_SECTION_SYM check is needed for IA-64, where every label that
starts with '.' is local. This would accidentally catch section names
if we didn't reject them here. */
if ((sym->flags & (BSF_GLOBAL | BSF_WEAK | BSF_FILE | BSF_SECTION_SYM)) != 0)
return FALSE;
if (sym->name == NULL)
return FALSE;
return bfd_is_local_label_name (abfd, sym->name);
}
/*
FUNCTION
bfd_is_local_label_name
SYNOPSIS
bfd_boolean bfd_is_local_label_name (bfd *abfd, const char *name);
DESCRIPTION
Return TRUE if a symbol with the name @var{name} in the BFD
@var{abfd} is a compiler generated local label, else return
FALSE. This just checks whether the name has the form of a
local label.
.#define bfd_is_local_label_name(abfd, name) \
. BFD_SEND (abfd, _bfd_is_local_label_name, (abfd, name))
.
*/
/*
FUNCTION
bfd_is_target_special_symbol
SYNOPSIS
bfd_boolean bfd_is_target_special_symbol (bfd *abfd, asymbol *sym);
DESCRIPTION
Return TRUE iff a symbol @var{sym} in the BFD @var{abfd} is something
special to the particular target represented by the BFD. Such symbols
should normally not be mentioned to the user.
.#define bfd_is_target_special_symbol(abfd, sym) \
. BFD_SEND (abfd, _bfd_is_target_special_symbol, (abfd, sym))
.
*/
/*
FUNCTION
bfd_canonicalize_symtab
DESCRIPTION
Read the symbols from the BFD @var{abfd}, and fills in
the vector @var{location} with pointers to the symbols and
a trailing NULL.
Return the actual number of symbol pointers, not
including the NULL.
.#define bfd_canonicalize_symtab(abfd, location) \
. BFD_SEND (abfd, _bfd_canonicalize_symtab, (abfd, location))
.
*/
/*
FUNCTION
bfd_set_symtab
SYNOPSIS
bfd_boolean bfd_set_symtab
(bfd *abfd, asymbol **location, unsigned int count);
DESCRIPTION
Arrange that when the output BFD @var{abfd} is closed,
the table @var{location} of @var{count} pointers to symbols
will be written.
*/
bfd_boolean
bfd_set_symtab (bfd *abfd, asymbol **location, unsigned int symcount)
{
if (abfd->format != bfd_object || bfd_read_p (abfd))
{
bfd_set_error (bfd_error_invalid_operation);
return FALSE;
}
bfd_get_outsymbols (abfd) = location;
bfd_get_symcount (abfd) = symcount;
return TRUE;
}
/*
FUNCTION
bfd_print_symbol_vandf
SYNOPSIS
void bfd_print_symbol_vandf (bfd *abfd, void *file, asymbol *symbol);
DESCRIPTION
Print the value and flags of the @var{symbol} supplied to the
stream @var{file}.
*/
void
bfd_print_symbol_vandf (bfd *abfd, void *arg, asymbol *symbol)
{
FILE *file = (FILE *) arg;
flagword type = symbol->flags;
if (symbol->section != NULL)
bfd_fprintf_vma (abfd, file, symbol->value + symbol->section->vma);
else
bfd_fprintf_vma (abfd, file, symbol->value);
/* This presumes that a symbol can not be both BSF_DEBUGGING and
BSF_DYNAMIC, nor more than one of BSF_FUNCTION, BSF_FILE, and
BSF_OBJECT. */
fprintf (file, " %c%c%c%c%c%c%c",
((type & BSF_LOCAL)
? (type & BSF_GLOBAL) ? '!' : 'l'
: (type & BSF_GLOBAL) ? 'g'
: (type & BSF_GNU_UNIQUE) ? 'u' : ' '),
(type & BSF_WEAK) ? 'w' : ' ',
(type & BSF_CONSTRUCTOR) ? 'C' : ' ',
(type & BSF_WARNING) ? 'W' : ' ',
(type & BSF_INDIRECT) ? 'I' : (type & BSF_GNU_INDIRECT_FUNCTION) ? 'i' : ' ',
(type & BSF_DEBUGGING) ? 'd' : (type & BSF_DYNAMIC) ? 'D' : ' ',
((type & BSF_FUNCTION)
? 'F'
: ((type & BSF_FILE)
? 'f'
: ((type & BSF_OBJECT) ? 'O' : ' '))));
}
/*
FUNCTION
bfd_make_empty_symbol
DESCRIPTION
Create a new <<asymbol>> structure for the BFD @var{abfd}
and return a pointer to it.
This routine is necessary because each back end has private
information surrounding the <<asymbol>>. Building your own
<<asymbol>> and pointing to it will not create the private
information, and will cause problems later on.
.#define bfd_make_empty_symbol(abfd) \
. BFD_SEND (abfd, _bfd_make_empty_symbol, (abfd))
.
*/
/*
FUNCTION
_bfd_generic_make_empty_symbol
SYNOPSIS
asymbol *_bfd_generic_make_empty_symbol (bfd *);
DESCRIPTION
Create a new <<asymbol>> structure for the BFD @var{abfd}
and return a pointer to it. Used by core file routines,
binary back-end and anywhere else where no private info
is needed.
*/
asymbol *
_bfd_generic_make_empty_symbol (bfd *abfd)
{
bfd_size_type amt = sizeof (asymbol);
asymbol *new_symbol = (asymbol *) bfd_zalloc (abfd, amt);
if (new_symbol)
new_symbol->the_bfd = abfd;
return new_symbol;
}
/*
FUNCTION
bfd_make_debug_symbol
DESCRIPTION
Create a new <<asymbol>> structure for the BFD @var{abfd},
to be used as a debugging symbol. Further details of its use have
yet to be worked out.
.#define bfd_make_debug_symbol(abfd,ptr,size) \
. BFD_SEND (abfd, _bfd_make_debug_symbol, (abfd, ptr, size))
.
*/
struct section_to_type
{
const char *section;
char type;
};
/* Map section names to POSIX/BSD single-character symbol types.
This table is probably incomplete. It is sorted for convenience of
adding entries. Since it is so short, a linear search is used. */
static const struct section_to_type stt[] =
{
{".bss", 'b'},
{"code", 't'}, /* MRI .text */
{".data", 'd'},
{"*DEBUG*", 'N'},
{".debug", 'N'}, /* MSVC's .debug (non-standard debug syms) */
{".drectve", 'i'}, /* MSVC's .drective section */
{".edata", 'e'}, /* MSVC's .edata (export) section */
{".fini", 't'}, /* ELF fini section */
{".idata", 'i'}, /* MSVC's .idata (import) section */
{".init", 't'}, /* ELF init section */
{".pdata", 'p'}, /* MSVC's .pdata (stack unwind) section */
{".rdata", 'r'}, /* Read only data. */
{".rodata", 'r'}, /* Read only data. */
{".sbss", 's'}, /* Small BSS (uninitialized data). */
{".scommon", 'c'}, /* Small common. */
{".sdata", 'g'}, /* Small initialized data. */
{".text", 't'},
{"vars", 'd'}, /* MRI .data */
{"zerovars", 'b'}, /* MRI .bss */
{0, 0}
};
/* Return the single-character symbol type corresponding to
section S, or '?' for an unknown COFF section.
Check for any leading string which matches, so .text5 returns
't' as well as .text */
static char
coff_section_type (const char *s)
{
const struct section_to_type *t;
for (t = &stt[0]; t->section; t++)
if (!strncmp (s, t->section, strlen (t->section)))
return t->type;
return '?';
}
/* Return the single-character symbol type corresponding to section
SECTION, or '?' for an unknown section. This uses section flags to
identify sections.
FIXME These types are unhandled: c, i, e, p. If we handled these also,
we could perhaps obsolete coff_section_type. */
static char
decode_section_type (const struct bfd_section *section)
{
if (section->flags & SEC_CODE)
return 't';
if (section->flags & SEC_DATA)
{
if (section->flags & SEC_READONLY)
return 'r';
else if (section->flags & SEC_SMALL_DATA)
return 'g';
else
return 'd';
}
if ((section->flags & SEC_HAS_CONTENTS) == 0)
{
if (section->flags & SEC_SMALL_DATA)
return 's';
else
return 'b';
}
if (section->flags & SEC_DEBUGGING)
return 'N';
if ((section->flags & SEC_HAS_CONTENTS) && (section->flags & SEC_READONLY))
return 'n';
return '?';
}
/*
FUNCTION
bfd_decode_symclass
DESCRIPTION
Return a character corresponding to the symbol
class of @var{symbol}, or '?' for an unknown class.
SYNOPSIS
int bfd_decode_symclass (asymbol *symbol);
*/
int
bfd_decode_symclass (asymbol *symbol)
{
char c;
if (symbol->section && bfd_is_com_section (symbol->section))
return 'C';
if (bfd_is_und_section (symbol->section))
{
if (symbol->flags & BSF_WEAK)
{
/* If weak, determine if it's specifically an object
or non-object weak. */
if (symbol->flags & BSF_OBJECT)
return 'v';
else
return 'w';
}
else
return 'U';
}
if (bfd_is_ind_section (symbol->section))
return 'I';
if (symbol->flags & BSF_GNU_INDIRECT_FUNCTION)
return 'i';
if (symbol->flags & BSF_WEAK)
{
/* If weak, determine if it's specifically an object
or non-object weak. */
if (symbol->flags & BSF_OBJECT)
return 'V';
else
return 'W';
}
if (symbol->flags & BSF_GNU_UNIQUE)
return 'u';
if (!(symbol->flags & (BSF_GLOBAL | BSF_LOCAL)))
return '?';
if (bfd_is_abs_section (symbol->section))
c = 'a';
else if (symbol->section)
{
c = coff_section_type (symbol->section->name);
if (c == '?')
c = decode_section_type (symbol->section);
}
else
return '?';
if (symbol->flags & BSF_GLOBAL)
c = TOUPPER (c);
return c;
/* We don't have to handle these cases just yet, but we will soon:
N_SETV: 'v';
N_SETA: 'l';
N_SETT: 'x';
N_SETD: 'z';
N_SETB: 's';
N_INDR: 'i';
*/
}
/*
FUNCTION
bfd_is_undefined_symclass
DESCRIPTION
Returns non-zero if the class symbol returned by
bfd_decode_symclass represents an undefined symbol.
Returns zero otherwise.
SYNOPSIS
bfd_boolean bfd_is_undefined_symclass (int symclass);
*/
bfd_boolean
bfd_is_undefined_symclass (int symclass)
{
return symclass == 'U' || symclass == 'w' || symclass == 'v';
}
/*
FUNCTION
bfd_symbol_info
DESCRIPTION
Fill in the basic info about symbol that nm needs.
Additional info may be added by the back-ends after
calling this function.
SYNOPSIS
void bfd_symbol_info (asymbol *symbol, symbol_info *ret);
*/
void
bfd_symbol_info (asymbol *symbol, symbol_info *ret)
{
ret->type = bfd_decode_symclass (symbol);
if (bfd_is_undefined_symclass (ret->type))
ret->value = 0;
else
ret->value = symbol->value + symbol->section->vma;
ret->name = symbol->name;
}
/*
FUNCTION
bfd_copy_private_symbol_data
SYNOPSIS
bfd_boolean bfd_copy_private_symbol_data
(bfd *ibfd, asymbol *isym, bfd *obfd, asymbol *osym);
DESCRIPTION
Copy private symbol information from @var{isym} in the BFD
@var{ibfd} to the symbol @var{osym} in the BFD @var{obfd}.
Return <<TRUE>> on success, <<FALSE>> on error. Possible error
returns are:
o <<bfd_error_no_memory>> -
Not enough memory exists to create private data for @var{osec}.
.#define bfd_copy_private_symbol_data(ibfd, isymbol, obfd, osymbol) \
. BFD_SEND (obfd, _bfd_copy_private_symbol_data, \
. (ibfd, isymbol, obfd, osymbol))
.
*/
/* The generic version of the function which returns mini symbols.
This is used when the backend does not provide a more efficient
version. It just uses BFD asymbol structures as mini symbols. */
long
_bfd_generic_read_minisymbols (bfd *abfd,
bfd_boolean dynamic,
void **minisymsp,
unsigned int *sizep)
{
long storage;
asymbol **syms = NULL;
long symcount;
if (dynamic)
storage = bfd_get_dynamic_symtab_upper_bound (abfd);
else
storage = bfd_get_symtab_upper_bound (abfd);
if (storage < 0)
goto error_return;
if (storage == 0)
return 0;
syms = (asymbol **) bfd_malloc (storage);
if (syms == NULL)
goto error_return;
if (dynamic)
symcount = bfd_canonicalize_dynamic_symtab (abfd, syms);
else
symcount = bfd_canonicalize_symtab (abfd, syms);
if (symcount < 0)
goto error_return;
*minisymsp = syms;
*sizep = sizeof (asymbol *);
return symcount;
error_return:
bfd_set_error (bfd_error_no_symbols);
if (syms != NULL)
free (syms);
return -1;
}
/* The generic version of the function which converts a minisymbol to
an asymbol. We don't worry about the sym argument we are passed;
we just return the asymbol the minisymbol points to. */
asymbol *
_bfd_generic_minisymbol_to_symbol (bfd *abfd ATTRIBUTE_UNUSED,
bfd_boolean dynamic ATTRIBUTE_UNUSED,
const void *minisym,
asymbol *sym ATTRIBUTE_UNUSED)
{
return *(asymbol **) minisym;
}
/* Look through stabs debugging information in .stab and .stabstr
sections to find the source file and line closest to a desired
location. This is used by COFF and ELF targets. It sets *pfound
to TRUE if it finds some information. The *pinfo field is used to
pass cached information in and out of this routine; this first time
the routine is called for a BFD, *pinfo should be NULL. The value
placed in *pinfo should be saved with the BFD, and passed back each
time this function is called. */
/* We use a cache by default. */
#define ENABLE_CACHING
/* We keep an array of indexentry structures to record where in the
stabs section we should look to find line number information for a
particular address. */
struct indexentry
{
bfd_vma val;
bfd_byte *stab;
bfd_byte *str;
char *directory_name;
char *file_name;
char *function_name;
};
/* Compare two indexentry structures. This is called via qsort. */
static int
cmpindexentry (const void *a, const void *b)
{
const struct indexentry *contestantA = (const struct indexentry *) a;
const struct indexentry *contestantB = (const struct indexentry *) b;
if (contestantA->val < contestantB->val)
return -1;
else if (contestantA->val > contestantB->val)
return 1;
else
return 0;
}
/* A pointer to this structure is stored in *pinfo. */
struct stab_find_info
{
/* The .stab section. */
asection *stabsec;
/* The .stabstr section. */
asection *strsec;
/* The contents of the .stab section. */
bfd_byte *stabs;
/* The contents of the .stabstr section. */
bfd_byte *strs;
/* A table that indexes stabs by memory address. */
struct indexentry *indextable;
/* The number of entries in indextable. */
int indextablesize;
#ifdef ENABLE_CACHING
/* Cached values to restart quickly. */
struct indexentry *cached_indexentry;
bfd_vma cached_offset;
bfd_byte *cached_stab;
char *cached_file_name;
#endif
/* Saved ptr to malloc'ed filename. */
char *filename;
};
bfd_boolean
_bfd_stab_section_find_nearest_line (bfd *abfd,
asymbol **symbols,
asection *section,
bfd_vma offset,
bfd_boolean *pfound,
const char **pfilename,
const char **pfnname,
unsigned int *pline,
void **pinfo)
{
struct stab_find_info *info;
bfd_size_type stabsize, strsize;
bfd_byte *stab, *str;
bfd_byte *last_stab, *last_str;
bfd_size_type stroff;
struct indexentry *indexentry;
char *file_name;
char *directory_name;
int saw_fun;
bfd_boolean saw_line, saw_func;
*pfound = FALSE;
*pfilename = bfd_get_filename (abfd);
*pfnname = NULL;
*pline = 0;
/* Stabs entries use a 12 byte format:
4 byte string table index
1 byte stab type
1 byte stab other field
2 byte stab desc field
4 byte stab value
FIXME: This will have to change for a 64 bit object format.
The stabs symbols are divided into compilation units. For the
first entry in each unit, the type of 0, the value is the length
of the string table for this unit, and the desc field is the
number of stabs symbols for this unit. */
#define STRDXOFF (0)
#define TYPEOFF (4)
#define OTHEROFF (5)
#define DESCOFF (6)
#define VALOFF (8)
#define STABSIZE (12)
info = (struct stab_find_info *) *pinfo;
if (info != NULL)
{
if (info->stabsec == NULL || info->strsec == NULL)
{
/* No stabs debugging information. */
return TRUE;
}
stabsize = (info->stabsec->rawsize
? info->stabsec->rawsize
: info->stabsec->size);
strsize = (info->strsec->rawsize
? info->strsec->rawsize
: info->strsec->size);
}
else
{
long reloc_size, reloc_count;
arelent **reloc_vector;
int i;
char *name;
char *function_name;
bfd_size_type amt = sizeof *info;
info = (struct stab_find_info *) bfd_zalloc (abfd, amt);
if (info == NULL)
return FALSE;
/* FIXME: When using the linker --split-by-file or
--split-by-reloc options, it is possible for the .stab and
.stabstr sections to be split. We should handle that. */
info->stabsec = bfd_get_section_by_name (abfd, ".stab");
info->strsec = bfd_get_section_by_name (abfd, ".stabstr");
if (info->stabsec == NULL || info->strsec == NULL)
{
/* Try SOM section names. */
info->stabsec = bfd_get_section_by_name (abfd, "$GDB_SYMBOLS$");
info->strsec = bfd_get_section_by_name (abfd, "$GDB_STRINGS$");
if (info->stabsec == NULL || info->strsec == NULL)
{
/* No stabs debugging information. Set *pinfo so that we
can return quickly in the info != NULL case above. */
*pinfo = info;
return TRUE;
}
}
stabsize = (info->stabsec->rawsize
? info->stabsec->rawsize
: info->stabsec->size);
strsize = (info->strsec->rawsize
? info->strsec->rawsize
: info->strsec->size);
info->stabs = (bfd_byte *) bfd_alloc (abfd, stabsize);
info->strs = (bfd_byte *) bfd_alloc (abfd, strsize);
if (info->stabs == NULL || info->strs == NULL)
return FALSE;
if (! bfd_get_section_contents (abfd, info->stabsec, info->stabs,
0, stabsize)
|| ! bfd_get_section_contents (abfd, info->strsec, info->strs,
0, strsize))
return FALSE;
/* If this is a relocatable object file, we have to relocate
the entries in .stab. This should always be simple 32 bit
relocations against symbols defined in this object file, so
this should be no big deal. */
reloc_size = bfd_get_reloc_upper_bound (abfd, info->stabsec);
if (reloc_size < 0)
return FALSE;
reloc_vector = (arelent **) bfd_malloc (reloc_size);
if (reloc_vector == NULL && reloc_size != 0)
return FALSE;
reloc_count = bfd_canonicalize_reloc (abfd, info->stabsec, reloc_vector,
symbols);
if (reloc_count < 0)
{
if (reloc_vector != NULL)
free (reloc_vector);
return FALSE;
}
if (reloc_count > 0)
{
arelent **pr;
for (pr = reloc_vector; *pr != NULL; pr++)
{
arelent *r;
unsigned long val;
asymbol *sym;
r = *pr;
/* Ignore R_*_NONE relocs. */
if (r->howto->dst_mask == 0)
continue;
if (r->howto->rightshift != 0
|| r->howto->size != 2
|| r->howto->bitsize != 32
|| r->howto->pc_relative
|| r->howto->bitpos != 0
|| r->howto->dst_mask != 0xffffffff)
{
(*_bfd_error_handler)
(_("Unsupported .stab relocation"));
bfd_set_error (bfd_error_invalid_operation);
if (reloc_vector != NULL)
free (reloc_vector);
return FALSE;
}
val = bfd_get_32 (abfd, info->stabs + r->address);
val &= r->howto->src_mask;
sym = *r->sym_ptr_ptr;
val += sym->value + sym->section->vma + r->addend;
bfd_put_32 (abfd, (bfd_vma) val, info->stabs + r->address);
}
}
if (reloc_vector != NULL)
free (reloc_vector);
/* First time through this function, build a table matching
function VM addresses to stabs, then sort based on starting
VM address. Do this in two passes: once to count how many
table entries we'll need, and a second to actually build the
table. */
info->indextablesize = 0;
saw_fun = 1;
for (stab = info->stabs; stab < info->stabs + stabsize; stab += STABSIZE)
{
if (stab[TYPEOFF] == (bfd_byte) N_SO)
{
/* N_SO with null name indicates EOF */
if (bfd_get_32 (abfd, stab + STRDXOFF) == 0)
continue;
/* if we did not see a function def, leave space for one. */
if (saw_fun == 0)
++info->indextablesize;
saw_fun = 0;
/* two N_SO's in a row is a filename and directory. Skip */
if (stab + STABSIZE < info->stabs + stabsize
&& *(stab + STABSIZE + TYPEOFF) == (bfd_byte) N_SO)
{
stab += STABSIZE;
}
}
else if (stab[TYPEOFF] == (bfd_byte) N_FUN)
{
saw_fun = 1;
++info->indextablesize;
}
}
if (saw_fun == 0)
++info->indextablesize;
if (info->indextablesize == 0)
return TRUE;
++info->indextablesize;
amt = info->indextablesize;
amt *= sizeof (struct indexentry);
info->indextable = (struct indexentry *) bfd_alloc (abfd, amt);
if (info->indextable == NULL)
return FALSE;
file_name = NULL;
directory_name = NULL;
saw_fun = 1;
stroff = 0;
for (i = 0, last_stab = stab = info->stabs, last_str = str = info->strs;
i < info->indextablesize && stab < info->stabs + stabsize;
stab += STABSIZE)
{
switch (stab[TYPEOFF])
{
case 0:
/* This is the first entry in a compilation unit. */
if ((bfd_size_type) ((info->strs + strsize) - str) < stroff)
break;
str += stroff;
stroff = bfd_get_32 (abfd, stab + VALOFF);
break;
case N_SO:
/* The main file name. */
/* The following code creates a new indextable entry with
a NULL function name if there were no N_FUNs in a file.
Note that a N_SO without a file name is an EOF and
there could be 2 N_SO following it with the new filename
and directory. */
if (saw_fun == 0)
{
info->indextable[i].val = bfd_get_32 (abfd, last_stab + VALOFF);
info->indextable[i].stab = last_stab;
info->indextable[i].str = last_str;
info->indextable[i].directory_name = directory_name;
info->indextable[i].file_name = file_name;
info->indextable[i].function_name = NULL;
++i;
}
saw_fun = 0;
file_name = (char *) str + bfd_get_32 (abfd, stab + STRDXOFF);
if (*file_name == '\0')
{
directory_name = NULL;
file_name = NULL;
saw_fun = 1;
}
else
{
last_stab = stab;
last_str = str;
if (stab + STABSIZE >= info->stabs + stabsize
|| *(stab + STABSIZE + TYPEOFF) != (bfd_byte) N_SO)
{
directory_name = NULL;
}
else
{
/* Two consecutive N_SOs are a directory and a
file name. */
stab += STABSIZE;
directory_name = file_name;
file_name = ((char *) str
+ bfd_get_32 (abfd, stab + STRDXOFF));
}
}
break;
case N_SOL:
/* The name of an include file. */
file_name = (char *) str + bfd_get_32 (abfd, stab + STRDXOFF);
break;
case N_FUN:
/* A function name. */
saw_fun = 1;
name = (char *) str + bfd_get_32 (abfd, stab + STRDXOFF);
if (*name == '\0')
name = NULL;
function_name = name;
if (name == NULL)
continue;
info->indextable[i].val = bfd_get_32 (abfd, stab + VALOFF);
info->indextable[i].stab = stab;
info->indextable[i].str = str;
info->indextable[i].directory_name = directory_name;
info->indextable[i].file_name = file_name;
info->indextable[i].function_name = function_name;
++i;
break;
}
}
if (saw_fun == 0)
{
info->indextable[i].val = bfd_get_32 (abfd, last_stab + VALOFF);
info->indextable[i].stab = last_stab;
info->indextable[i].str = last_str;
info->indextable[i].directory_name = directory_name;
info->indextable[i].file_name = file_name;
info->indextable[i].function_name = NULL;
++i;
}
info->indextable[i].val = (bfd_vma) -1;
info->indextable[i].stab = info->stabs + stabsize;
info->indextable[i].str = str;
info->indextable[i].directory_name = NULL;
info->indextable[i].file_name = NULL;
info->indextable[i].function_name = NULL;
++i;
info->indextablesize = i;
qsort (info->indextable, (size_t) i, sizeof (struct indexentry),
cmpindexentry);
*pinfo = info;
}
/* We are passed a section relative offset. The offsets in the
stabs information are absolute. */
offset += bfd_get_section_vma (abfd, section);
#ifdef ENABLE_CACHING
if (info->cached_indexentry != NULL
&& offset >= info->cached_offset
&& offset < (info->cached_indexentry + 1)->val)
{
stab = info->cached_stab;
indexentry = info->cached_indexentry;
file_name = info->cached_file_name;
}
else
#endif
{
long low, high;
long mid = -1;
/* Cache non-existent or invalid. Do binary search on
indextable. */
indexentry = NULL;
low = 0;
high = info->indextablesize - 1;
while (low != high)
{
mid = (high + low) / 2;
if (offset >= info->indextable[mid].val
&& offset < info->indextable[mid + 1].val)
{
indexentry = &info->indextable[mid];
break;
}
if (info->indextable[mid].val > offset)
high = mid;
else
low = mid + 1;
}
if (indexentry == NULL)
return TRUE;
stab = indexentry->stab + STABSIZE;
file_name = indexentry->file_name;
}
directory_name = indexentry->directory_name;
str = indexentry->str;
saw_line = FALSE;
saw_func = FALSE;
for (; stab < (indexentry+1)->stab; stab += STABSIZE)
{
bfd_boolean done;
bfd_vma val;
done = FALSE;
switch (stab[TYPEOFF])
{
case N_SOL:
/* The name of an include file. */
val = bfd_get_32 (abfd, stab + VALOFF);
if (val <= offset)
{
file_name = (char *) str + bfd_get_32 (abfd, stab + STRDXOFF);
*pline = 0;
}
break;
case N_SLINE:
case N_DSLINE:
case N_BSLINE:
/* A line number. If the function was specified, then the value
is relative to the start of the function. Otherwise, the
value is an absolute address. */
val = ((indexentry->function_name ? indexentry->val : 0)
+ bfd_get_32 (abfd, stab + VALOFF));
/* If this line starts before our desired offset, or if it's
the first line we've been able to find, use it. The
!saw_line check works around a bug in GCC 2.95.3, which emits
the first N_SLINE late. */
if (!saw_line || val <= offset)
{
*pline = bfd_get_16 (abfd, stab + DESCOFF);
#ifdef ENABLE_CACHING
info->cached_stab = stab;
info->cached_offset = val;
info->cached_file_name = file_name;
info->cached_indexentry = indexentry;
#endif
}
if (val > offset)
done = TRUE;
saw_line = TRUE;
break;
case N_FUN:
case N_SO:
if (saw_func || saw_line)
done = TRUE;
saw_func = TRUE;
break;
}
if (done)
break;
}
*pfound = TRUE;
if (file_name == NULL || IS_ABSOLUTE_PATH (file_name)
|| directory_name == NULL)
*pfilename = file_name;
else
{
size_t dirlen;
dirlen = strlen (directory_name);
if (info->filename == NULL
|| filename_ncmp (info->filename, directory_name, dirlen) != 0
|| filename_cmp (info->filename + dirlen, file_name) != 0)
{
size_t len;
/* Don't free info->filename here. objdump and other
apps keep a copy of a previously returned file name
pointer. */
len = strlen (file_name) + 1;
info->filename = (char *) bfd_alloc (abfd, dirlen + len);
if (info->filename == NULL)
return FALSE;
memcpy (info->filename, directory_name, dirlen);
memcpy (info->filename + dirlen, file_name, len);
}
*pfilename = info->filename;
}
if (indexentry->function_name != NULL)
{
char *s;
/* This will typically be something like main:F(0,1), so we want
to clobber the colon. It's OK to change the name, since the
string is in our own local storage anyhow. */
s = strchr (indexentry->function_name, ':');
if (s != NULL)
*s = '\0';
*pfnname = indexentry->function_name;
}
return TRUE;
}
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